JP5425507B2 - Motor cable device and resin parts used for motor cable device - Google Patents

Description

  The present invention relates to a motor cable device that electrically connects a motor and an inverter, and a resin component used in the motor cable device.

  An electric vehicle or a hybrid vehicle includes a motor as a power source, an inverter that generates a three-phase alternating current necessary for driving the motor, and a motor cable device that connects the motor and the inverter.

  The motor cable device disclosed in the following Patent Document 1 is provided with a cable body including a plurality of cables, a motor side connection portion provided at one end of the cable body and serving as a motor connection portion, and provided at the other end of the cable body. The inverter-side connecting portion serving as a connecting portion of the inverter and a cable fixing member provided in the middle of the cable main body for fixing the intermediate portion to the vehicle body.

  The cable fixture is fixed to the vehicle body using a dedicated mounting base and fixture. A cable fixing tool, a dedicated mounting base, and a fixing metal fitting are parts fixed to the vehicle body, and are provided for restricting the vibration of the cable due to vibrations and shocks generated in the vehicle.

JP 2008-253017 A

  By the way, the above prior art has the following problems. In other words, since the motor is a power source as well as a vibration source, the generated vibration is transmitted to the fixed part through the cable body, and if there is a large amount of structural play in the fixed part, It has the problem of causing damage and the like. Further, there is a problem that the fixed portion may not be provided due to the structure of the vehicle.

  The inventor of the present application considers that the vibration of the motor and the vibration and impact generated in the vehicle are positively transmitted to the cable body to vibrate the cable body, and the vibration is absorbed by this vibration. In addition, the inventor of the present application also thinks that the above-mentioned problem can be solved because the fixed part as in Patent Document 1 can be made unnecessary by the above-mentioned idea.

  However, if the cable main body is shaken, the force of the shake particularly acts on the inverter side connection portion. Therefore, the above idea may lead to breakage of the inverter side connection portion or lower connection reliability. have.

  This invention is made | formed in view of an above-described situation, and makes it a subject to provide the motor cable apparatus which can prevent the failure | damage of an inverter side connection part, and the fall of connection reliability. It is another object of the present invention to provide a resin component used in such a motor cable device.

In order to solve the above-mentioned problems, the motor cable device according to claim 1 of the present invention includes a cable main body including a plurality of cables, a motor-side connecting portion provided at one end of the cable main body, and the cable main body. In a motor cable device that includes an inverter-side connecting portion provided at the other end and electrically connects the motor and the inverter so that vibration is generated by transmitting vibration or shock from the motor or the outside to the cable body. the one forming the cable body, further comprising a resin component having a fixed end portion that is directly or indirectly fixed to the inverter while supporting the inverter-side connecting portion, wherein the resin component is in the fixed end It is coupled and supports the cable body in the vicinity of the connection portion on the inverter side to absorb the vibration generated in the cable body. To shake absorbing portion is formed, the vibration absorbing unit is characterized by forming a recess in a portion of the free end position.

According to the present invention having such characteristics, when the vibration of the motor is transmitted to the cable body, the cable body is shaken. This vibration contributes to absorption of motor vibration and the like. If vibration occurs in the cable body, the vibration force is applied to the inverter side connection part connected to the inverter as it is, but in the present invention, the vibration absorption part of the resin component fixed to the inverter The vibration of the cable body at the position of the vibration absorbing portion is absorbed.
Further, according to the present invention, the plurality of cables in the cable main body supported by the vibration absorbing portion can be easily non-planar in the shape of the cable drawn out from the resin component toward the motor by using the recess. It is formed in a simple shape. For example, if there are three cables, put the middle cable out of these three cables into the recess and pull it out from the resin part, and pull it out so that the left and right cables are brought inward. The three cables having the cable shape are easily formed.
By the way, considering the case where the cable body is bent and routed, the three cables need to be formed to have different overall lengths due to slackness and yield. When the cable shape is, for example, substantially triangular in cross section (rice ball shape) as described above, the cable body may not be bent and routed unless the cable arrangement is accurate. If such a concave portion is used, for example, three cables can be bundled (bundled) in a predetermined arrangement, and the bending routing of the cable body is not affected.
In addition, since a recessed part is formed in a part of free end position of a vibration absorption part, the function of a vibration absorption part is not impaired.

A motor cable device according to a second aspect of the present invention is the motor cable device according to the first aspect, wherein the resin component has a function as a protector .

According to the present invention having such a feature, the inverter side connecting portion and the cable body in the vicinity thereof are protected and guided by the resin component that functions as a protector.

The motor cable device of the present invention according to claim 3, which has been made to solve the above problems, includes a cable main body including a plurality of cables, a motor-side connecting portion provided at one end of the cable main body, and the cable main body. In the motor cable device that includes an inverter-side connecting portion provided at the other end and electrically connects the motor and the inverter, the cable body transmits vibration or impact from the motor or the outside so that the vibration occurs. In addition, the other end of the cable body is provided with a resin component that supports the inverter-side connection portion and is formed with a fixed end portion that is directly or indirectly fixed to the inverter. The plurality of cables that are coupled to the fixed end portion and that are adjacent to the inverter side connection portion are arranged in a horizontal row on the inner surface. Forming a plurality of ribs formed and an outer surface parallel support for supporting, it is characterized by providing a vibration absorbing portion for absorbing the vibration generated in the cable body to be derived from the resin component.

According to the present invention having such characteristics, when the vibration of the motor is transmitted to the cable body, the cable body is shaken. This vibration contributes to absorption of motor vibration and the like. If vibration occurs in the cable body, the vibration force is applied to the inverter side connection part connected to the inverter as it is, but in the present invention, the vibration absorption part of the resin component fixed to the inverter The vibration of the cable body at the position of the vibration absorbing portion is absorbed.

The resin component used in the motor cable device of the present invention according to claim 4 made to solve the above problem supports an inverter side connection portion of a motor cable device for electrically connecting a motor and an inverter and the inverter. A fixed end that is fixed directly or indirectly to the fixed end, and a vibration absorbing portion that is coupled to the fixed end and supports the cable main body in the vicinity of the inverter-side connecting portion and absorbs vibration generated in the cable main body. The vibration absorbing portion is characterized in that a concave portion is formed in a part of the free end position .

According to the present invention having such characteristics, even if the cable main body is shaken, the shake is absorbed by the shake absorbing portion. The inverter-side connection portion connected to the inverter is not affected by the shake and maintains a good connection state.
Further, according to the present invention, the plurality of cables in the cable main body supported by the vibration absorbing portion can be easily non-planar in the shape of the cable drawn out from the resin component toward the motor by using the recess. It is formed in a simple shape. For example, if there are three cables, put the middle cable out of these three cables into the recess and pull it out from the resin part, and pull it out so that the left and right cables are brought inward. The three cables having the cable shape are easily formed.
By the way, considering the case where the cable body is bent and routed, the three cables need to be formed to have different overall lengths due to slackness and yield. When the cable shape is, for example, substantially triangular in cross section (rice ball shape) as described above, the cable body may not be bent and routed unless the cable arrangement is accurate. If such a concave portion is used, for example, three cables can be bundled (bundled) in a predetermined arrangement, and the bending routing of the cable body is not affected.
In addition, since a recessed part is formed in a part of free end position of a vibration absorption part, the function of a vibration absorption part is not impaired.

The resin component used in the motor cable device of the present invention according to claim 5 made to solve the above problems supports an inverter side connection portion of a motor cable device for electrically connecting a motor and an inverter and the inverter. A fixed end portion that is directly or indirectly fixed to the fixed end portion, and a parallel support portion that is coupled to the fixed end portion and that supports the plurality of cables in the vicinity of the inverter side connection portion in a horizontal row on the inner surface. And a plurality of ribs formed on the outer surface, and a vibration absorbing portion for absorbing vibration generated in the cable main body led out from the resin component is provided .

  According to the present invention having such characteristics, even if the cable main body is shaken, the shake is absorbed by the shake absorbing portion. The inverter-side connection portion connected to the inverter is not affected by the shake and maintains a good connection state.

According to the first and third aspects of the present invention, since the resin component fixed to the inverter is provided and the vibration absorbing portion is formed in the resin component, vibration and impact at the position of the inverter side connection portion are prevented. It can be absorbed by the vibration absorber. Therefore, there is an effect that it is possible to prevent breakage of the inverter side connection portion and deterioration of connection reliability.

Further , according to the present invention described in claim 1 , since the concave portion is formed in a part of the free end position of the vibration absorbing portion, the shape of the cable on the side pulled out from the resin component toward the motor can be easily removed. There is an effect that a planar shape can be obtained. In addition, according to the present invention, there is an effect that it is useful when a plurality of cables are bundled (bundled) in a predetermined arrangement.

According to the second aspect of the present invention, since the function as a protector is provided, the inverter side connection portion and the cable body in the vicinity thereof can be protected and guided.

According to the present invention described in claims 4 and 5 , there is an effect that it is possible to provide a resin component that contributes to prevention of damage to the inverter side connection portion and prevention of deterioration in connection reliability.
Further, according to the present invention described in claim 4, since the concave portion is formed in a part of the free end position of the vibration absorbing portion, the cable shape on the side pulled out from the resin component toward the motor can be easily removed. There is an effect that a planar shape can be obtained. In addition, according to the present invention, there is an effect that it is useful when a plurality of cables are bundled (bundled) in a predetermined arrangement.

It is the schematic which shows the use condition of the motor cable apparatus of this invention. It is a perspective view of a motor cable device. It is a perspective view of the inverter side connection part and protector in a motor cable apparatus. FIG. 4 is a perspective view of a state where a cover is removed from FIG. 3. It is an end view of the inverter side connection part and protector in a motor cable apparatus. It is a perspective view of a protector main body. It is a perspective view which shows the modification of a protector main body. It is a figure which shows the usage example of the protector main body of FIG. 7, (a) is a side view, (b) is a figure of (a) A viewing direction, (c) is a figure of B viewing direction of (a).

  Resin parts are provided for use in motor cable devices that electrically connect a motor and an inverter. As this resin component, it has a fixed end part which supports the inverter side connection part of a motor cable apparatus, and is directly or indirectly fixed to an inverter. In addition, there is a vibration absorbing portion that is coupled to the fixed end portion and supports the cable main body in the vicinity of the inverter side connection portion and absorbs vibration generated in the cable main body. The motor cable device includes the above-described resin component and a cable body in which vibration occurs.

  The first embodiment will be described below with reference to the drawings. FIG. 1 is a schematic view showing a use state of the motor cable device of the present invention. 2 is a perspective view of the motor cable device, FIG. 3 is a perspective view of the inverter side connection portion and the protector in the motor cable device, FIG. 4 is a perspective view of the motor cable device with the cover removed, and FIG. FIG. 6 is a perspective view of the protector main body, and FIG. 6 is an end view of the inverter-side connecting portion and the protector in the apparatus.

  In FIG. 1, a motor 1 and an inverter 2 in an electric vehicle or a hybrid vehicle are electrically connected by a motor cable device 3. The motor cable device 3 includes a cable body 4 including a plurality of cables, a motor side connection portion 5 provided at one end of the cable body 4, an inverter side connection portion 6 provided at the other end of the cable body 4, and a motor side. The motor-side protector 7 corresponding to the connecting portion 5 and the inverter-side protector 8 (corresponding to the resin part described in the claims) corresponding to the inverter-side connecting portion 6 are configured.

  The motor cable device 3 transmits vibrations from the motor 1 and shocks from the vehicle to the cable body 4 to cause vibration in the direction of the arrow in the figure, and the vibration absorption structure that can absorb vibrations and the like by this vibration. have. Further, the motor cable device 3 has a structure in which the inverter-side protector 8 absorbs the vibration of the cable body 4 on the side where the inverter-side connection portion 6 exists, and does not adversely affect the inverter-side connection portion 6. have. Hereinafter, each configuration of the motor cable device 3 will be described.

  In FIG. 2, the cable body 4 includes three high-voltage cables 9, a tubular braid 10 that collectively accommodates the three cables 9, and a protective member 11 provided outside the braid 10. And is configured. The cable body 4 is formed such that three cables 9 are arranged in a horizontal row so that the three cables 9 are in a parallel state (aligned in a planar state). The braid 10 provided around the three cables 9 in such a parallel state is formed by weaving a thin wire having conductivity into a cylindrical shape. The braid 10 is a shield member, and both ends thereof are fixed to the respective ground portions of the motor side connection portion 5 and the inverter side connection portion 6 by a predetermined method.

  The protection member 11 is an exterior material and has a protection function against the outside. Further, the protection member 11 is a sheet-like member having wear resistance and flexibility, and is formed by winding the protection member 11 around the outer side of the braid 10. The protection member 11 is, for example, a twist tube, and is wound with a tape 12 or the like at a predetermined position (so as not to be scattered). The protective member 11 has a slightly shorter overall length than the braid 10, and a boundary portion where the braid 10 is exposed is wrapped with, for example, a tape made of acetate cloth to form an acetate tube (not shown). 2 indicates that the protection member 11 has such a length as to straddle the motor-side protector 7 and the inverter-side protector 8.

  In FIG. 2, the motor side connecting portion 5 includes a terminal fitting 18 provided at each end of three cables 9, an insulating housing 19 for receiving and fixing the terminal fitting 18 and the motor 1 (see FIG. 2). 1), and a metal shell 21 for connecting and fixing one end of the braid 10 to the ground portion 20. The motor-side connection portion 5 has a known structure (it is a known structure, and thus detailed description thereof is omitted here).

  The motor side protector 7 is an insulating resin component, and is formed so as to protect the motor side connecting portion 5 and to guide one end side of the cable body 4. Reference numeral 22 indicates a fixing portion for fixing one end of the cable body 4 with a binding band (not shown). Although not specifically shown, in the present embodiment, the acetate tube is also formed on the fixing portion 22 and the binding band.

  4 and 5, the inverter side connecting portion 6 includes a terminal fitting 23 provided at each end of three cables 9, an insulating housing 24 for accommodating and fixing the terminal fitting 23, an inverter, and the like. 2 (see FIG. 1) and a metal shell 26 for connecting and fixing the other end of the braid 10 to the ground portion 25. The inverter-side connecting portion 6 has a known structure (it is a well-known structure, and a detailed description thereof will be omitted here).

  3 to 6, the inverter-side protector 8 is an insulating resin component, and includes a protector main body 27 and a cover 28 that engages with the protector main body 27. The inverter side protector 8 has a protection function and a guide function for the other end of the cable body 4 and the inverter side connection portion 6. Further, the inverter-side protector 8 has a function of absorbing the shake of the cable body 4 on the side where the inverter-side connecting portion 6 exists. The inverter-side protector 8 is formed in a shape that is substantially L-shaped when viewed from the side.

  The protector main body 27 has a fixed end portion 29 and a vibration absorbing portion 30. The fixed end portion 29 supports the inverter side connection portion 6 and is formed to be fixed directly or indirectly to the inverter 2 (see FIG. 1). The fixed end portion 29 is formed in accordance with the shape of the inverter side connection portion 6. A vibration absorbing portion 30 is coupled to the fixed end portion 29.

  The shake absorbing portion 30 is formed so as to support the cable body 4 in the vicinity of the inverter side connecting portion 6 and absorb the shake generated in the cable body 4. A parallel support portion 31 is formed on the inner surface of the vibration absorbing portion 30. The parallel support portion 31 is formed so that the three cables 9 at the other end of the cable body 4 can be arranged side by side and supported. A plurality of fixing portions 32 for fixing the other end side of the cable main body 4 by binding bands (not shown) are formed on the outer surface of the vibration absorbing portion 30.

  A plurality of ribs 33 are formed on the outer surface of the shake absorbing portion 30 that is located on the opposite side of the parallel support portion 31. The plurality of ribs 33 are formed so as to extend to the fixed end portion 29 beyond the continuous portion of the fixed end portion 29 and the vibration absorbing portion 30. The plurality of ribs 33 are portions for adjusting the rigidity of the vibration absorbing portion 30, and can be made to be a rigid body from the continuous portion to the vibration absorbing portion 30 or can be slightly bent. As described above, the rib height, number, arrangement, and the like are set.

  The protector body 27 is formed in a state in which it is difficult to twist due to this shape and the arrangement of the plurality of ribs 33 as shown in FIG. As a result, the protector body 27 can efficiently swing the cable body 4 in the direction of the arrow in FIG.

  The cover 28 is formed in a shape that can mainly cover the inverter side connection portion 6 (assumed to be an example).

  In the above configuration and structure, as shown in FIG. 1, when the motor 1 and the inverter 2 are electrically connected by the motor cable device 3, and the motor 1 is driven or the vehicle is run in this connected state, the motor cable The device 3 is subjected to vibrations and shocks from the motor 1 or the outside, which causes the cable body 4 to shake in the direction of the arrow. This vibration contributes to absorption of the vibration and the like. If the cable body 4 is shaken, a shake force is applied to the inverter-side connecting portion 6 connected to the inverter 2 as it is, but in the present invention, it is fixed to the inverter 2. The shake of the cable body 4 at the position of the shake absorbing portion 30 is absorbed by the shake absorbing portion 30 (see FIGS. 3 to 6) of the inverter-side protector 8. Therefore, according to the present invention, no swinging force that affects the inverter-side connecting portion 6 is applied, and as a result, damage to the inverter-side connecting portion 6 and a decrease in connection reliability can be prevented.

  The second embodiment will be described below with reference to FIGS. FIG. 7 is a perspective view showing a modification of the protector body, and FIG. 8 is a view showing an example of use of the protector body of FIG. It should be noted that the same reference numerals are assigned to basically the same parts as in the first embodiment.

  In FIG. 7, the protector main body 27 has a fixed end portion 29 and a shake absorbing portion 30 coupled to the fixed end portion 29. A parallel support portion 31 is formed on the inner surface of the vibration absorbing portion 30. A concave portion 34 is disposed and formed at a part of the free end position of the vibration absorbing portion 30.

  In FIG. 8, the three cables 9 arranged in a horizontal row and supported in a plane by the parallel support portion 31 of the vibration absorbing portion 30 are pulled out toward the motor 1 (see FIG. 1) by using the recess 34. The cable shape on the cable side can be easily formed into a non-planar shape. Specifically, if the middle cable 9 of the three cables 9 is pulled into the recess 34 and then pulled out so that the left and right cables 9 are brought inward, the cable shape has a substantially triangular cross section (rice ball shape). Therefore, the three cables 9 can be easily formed.

  Therefore, according to the present invention, when the cable shape is a non-planar shape, for example, it can be said that it is effective to form the recess 34.

  Further, according to the present invention, it can be said that the concave portion 34 is useful when a plurality of cables 9 are bundled (bundled) in a predetermined arrangement (for details, refer to the section of means for solving the problem).

  It goes without saying that the present invention can be variously modified without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 ... Motor 2 ... Inverter 3 ... Motor cable apparatus 4 ... Cable main body 5 ... Motor side connection part 6 ... Inverter side connection part 7 ... Motor side protector 8 ... Inverter side protector (resin part)
DESCRIPTION OF SYMBOLS 9 ... Cable 10 ... Braiding 11 ... Protection member 12 ... Tape winding 18, 23 ... Terminal metal fittings 19, 24 ... Housing 20, 25 ... Earth part 21, 26 ... Metal shell 22, 32 ... Fixing part 27 ... Protector main body 28 ... Cover DESCRIPTION OF SYMBOLS 29 ... Fixed end part 30 ... Shake-absorbing part 31 ... Parallel support part 33 ... Rib 34 ... Recessed part

Claims (5)

A cable main body including a plurality of cables, a motor side connection provided at one end of the cable main body, and an inverter side connection provided at the other end of the cable main body, and electrically connecting the motor and the inverter In the motor cable device to be connected,
While forming the cable body so that vibration is generated by transmitting vibration and impact from the motor or the outside to the cable body,
Further comprising a resin component that supports the inverter side connecting portion and has a fixed end portion that is directly or indirectly fixed to the inverter,
The resin component is coupled to the fixed end portion and supports the cable main body in the vicinity of the inverter side connection portion to form a vibration absorbing portion that absorbs vibration generated in the cable main body ,
The motor cable device according to claim 1 , wherein the vibration absorbing portion forms a recess in a part of the free end position . The motor cable device according to claim 1,
The motor cable device , wherein the resin component has a function as a protector . A cable main body including a plurality of cables, a motor side connection provided at one end of the cable main body, and an inverter side connection provided at the other end of the cable main body, and electrically connecting the motor and the inverter In the motor cable device to be connected,
The cable body is
Form the vibration to generate vibrations and shocks from the motor or the outside,
Furthermore, at the other end of the cable body,
Provide a resin part that supports the inverter side connection portion and is formed with a fixed end portion that is directly or indirectly fixed to the inverter;
The resin parts include
A parallel support portion that is coupled to the fixed end portion and supports the plurality of cables in the vicinity of the inverter side connection portion in a horizontal row on the inner surface and a plurality of ribs on the outer surface is formed, A motor cable device comprising a vibration absorbing portion that absorbs vibration generated in the cable body led out from a resin component . A fixed end portion that supports the inverter side connection portion of the motor cable device that electrically connects the motor and the inverter and is directly or indirectly fixed to the inverter;
A shake-absorbing portion for absorbing the vibration generated in the cable body to support the inverter side connecting portion vicinity of the cable body with is formed continuously to the fixed end portion,
Equipped with a,
The resin component used for the motor cable device, wherein the vibration absorbing portion is formed with a recess in a part of the free end position . A fixed end portion that supports the inverter side connection portion of the motor cable device that electrically connects the motor and the inverter and is directly or indirectly fixed to the inverter;
A parallel support portion that is coupled to the fixed end portion and supports the plurality of cables in the vicinity of the inverter side connection portion in a horizontal row on the inner surface and a plurality of ribs on the outer surface is formed, A vibration absorbing portion that absorbs vibration generated in the cable body derived from the resin component;
Provide
Resin parts used for motor cable devices.

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